1 / 11

Rehabilitation Robotics

Rehabilitation Robotics. Robotics Faculty Meeting 3/1/2013. What is Rehabilitation Robotics ?. slide by Dan Ferris.

carter
Download Presentation

Rehabilitation Robotics

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Rehabilitation Robotics Robotics Faculty Meeting 3/1/2013

  2. What is Rehabilitation Robotics? slide by Dan Ferris The underlying science and development of powered devices for improving function or mobility of individuals with physical disabilities through movement therapy or chronic assistance

  3. slide by Dan Ferris Rehabilitation Robotics Publications (as a Percentage of Rehabilitation Publications) In 2028, 100% of rehabilitation studies will use a robot

  4. slide by Dan Ferris BIOMECHANICS (Kinesiology) Interdisciplinary Research mechanical transfer MECHATRONICS (Mechanical Engineering) CLINICAL RESEARCH (Physical Medicine &Rehabilitation) MACHINE HUMAN electrical transfer BRAIN-COMPUTER INTERFACES (Biomedical Engineering)

  5. Rehabilitation Robotics Faculty Cynthia Chestek, Biomedical Engineering Daniel Ferris, Kinesiology, Biomedical Engineering, Physical Medicine & Rehabilitation Deanna Gates, Kinesiology Brent Gillespie, Mechanical Engineering Jane Huggins, Physical Medicine & Rehabilitation Art Kuo, Mechanical Engineering Chandramouli Krishnan, Physical Medicine and Rehabilitation Sean Meehan, Kinesiology David Remy, Mechanical Engineering Kathleen Sienko, Mechanical Engineering, Biomedical Engineering Rachael Seidler, Kinesiology, Psychology

  6. Rehabilitation Robotics Faculty Cynthia Chestek, Biomedical Engineering Daniel Ferris, Kinesiology, Biomedical Engineering, Physical Medicine & Rehabilitation Deanna Gates, Kinesiology Brent Gillespie, Mechanical Engineering Jane Huggins, Physical Medicine & Rehabilitation Art Kuo, Mechanical Engineering Chandramouli Krishnan, Physical Medicine and Rehabilitation Sean Meehan, Kinesiology David Remy, Mechanical Engineering Kathleen Sienko, Mechanical Engineering, Biomedical Engineering Rachael Seidler, Kinesiology, Psychology

  7. Rehabilitation Robotics Faculty Cynthia Chestek, Biomedical Engineering Daniel Ferris, Kinesiology, Biomedical Engineering, Physical Medicine & Rehabilitation Deanna Gates, Kinesiology Brent Gillespie, Mechanical Engineering Jane Huggins, Physical Medicine & Rehabilitation Art Kuo, Mechanical Engineering Chandramouli Krishnan, Physical Medicine and Rehabilitation Sean Meehan, Kinesiology David Remy, Mechanical Engineering Kathleen Sienko, Mechanical Engineering, Biomedical Engineering Rachael Seidler, Kinesiology, Psychology

  8. Rehabilitation Robotics Faculty PC Cindy Chestek, Invasive Brain-Machine Interfaces Daniel Ferris, Exoskeletons, BMIs Deanna Gates, Prosthetic and Orthotics

  9. Rehabilitation Robotics Faculty Brent Gillespie, Haptics, Human Powered Exos Jane Huggins, Brain-Machine Interfaces

  10. Art’s Lab: Rehabilitation Robotics Faculty Art Kuo, Dynamics in Bipedal Walking Chandramouli Krishnan, Application of Rehab. Robotics Sean Meehan, Sensorimotor control

  11. Rehabilitation Robotics Faculty David Remy, Legged Robots Kathleen Sienko, Sensory Augmentation (Feedback) Rachael Seidler, Neuromotor Behavior and Learning (MRI imaging, etc.)

More Related